Orientation-dependent evolution of the microstructure in polycrystalline cooper deformed by tension

N.Y. Zolotorevsky ORCID logo , V.V. Rybin, E.A. Ushanova, V.N. Perevezentsev показать трудоустройства и электронную почту
Получена 15 мая 2023; Принята 07 августа 2023;
Эта работа написана на английском языке
Цитирование: N.Y. Zolotorevsky, V.V. Rybin, E.A. Ushanova, V.N. Perevezentsev. Orientation-dependent evolution of the microstructure in polycrystalline cooper deformed by tension. Письма о материалах. 2023. Т.13. №4. С.329-334
BibTex   https://doi.org/10.22226/2410-3535-2023-4-329-334

Аннотация

Grain fragmentation in tensile strained copper is orientation dependentThe microstructure has been analyzed using the EBSD technique in two locations of the neck region of the cooper tensile specimen, the local true strains in which were estimated as 0.45 and 1.15. It was shown that the orientation-dependent evolution of the microstructure occurs concurrently with the development of the crystallographic texture. Grains oriented in the [111] corner of the stereographic triangle accumulate a high density of extended low-angle boundaries delineating cell blocks, but keep a relatively uniform orientation of the tensile direction. Inside grains oriented in the [100] corner, the density of cell block boundaries is significantly lower. Nevertheless, the latter grains lose their uniform orientation, which is accompanied by the appearance of deformation fragments having high-angle boundaries. These peculiarities of the microstructure evolution are discussed in terms of polycrystal micromechanics.

Ссылки (41)

1. J. G. Sevillano. Flow Stress and Work Hardening. In: Materials Science and Technology (ed. by R. W. Cahn, P. Haasen, E. J. Kramer). Wiley (2006). Crossref
2. V. V. Rybin. Large plastic deformations and fracture of metals. Metallurgiya, Moscow (1986) 224 p. (in Russian) [В.В. Рыбин. Большие пластические деформации и разрушение металлов. Металлургия, Москва (1986) 224 с.].
3. D. A. Hughes, N. Hansen. Acta Mater. 45, 3871 (1997). Crossref
4. P. J. Hurley, F. J. Humphreys. Acta Mater. 51, 1087 (2003). Crossref
5. Y. Estrin, A. Vinogradov. Acta Mater. 61, 782 (2013). Crossref
6. N. Yu. Zolotorevsky, V. V. Rybin, A. N. Matvienko, E. A. Ushanova, S. A. Philippov. Materials Characterization. 147, 184 (2019). Crossref
7. D. Kuhlmann-Wilsdorf, N. Hansen. Scr. Metall. Mater. 25, 1557 (1991). Crossref
8. Yu. Perlovich, H. J. Bunge, M. Isaenkova. Textures and Microstructures. 29, 241 (1997).
9. Q. Liu, D. Juul Jensen, N. Hansen. Acta Mater. 46, 5819 (1998). Crossref
10. N. Hansen, X. Huang, W. Pantleon, G. Winther. Phil. Mag. 86, 3981 (2006). Crossref
11. T. Ungar, A. D. Stoica, G. Tichy, X.-L. Wang. Acta Mater. 66, 251 (2014). Crossref
12. C. C. Merriman, D. P. Field, P. Trivedi. Mater. Sci. and Eng. A. 494, 28 (2008). Crossref
13. B. Bacroix, S. Queyreau, D. Chaubet, E. Siv, Th. Chauveau. Acta Materialia. 160, 121 (2018). Crossref
14. H. Pirgazi, L. A. I. Kestens. Materials Characterization. 171, 110752 (2021). Crossref
15. A. Dolzhenko, M. Tikhonova, R. Kaibyshev, A. Belyakov. Metals. 12, 454 (2022). Crossref
16. A. Arya, S. Suwas, C. Gérard, L. Signor, L. Thilly, A. H. Chokshi. Acta Materialia. 221, 117396 (2021). Crossref
17. J. Baton, W. Geslin, C. Moussa. Materials Characterization. 171, 110789 (2021). Crossref
18. X. Huang, N. Hansen. Scripta Mater. 37, 1 (1997). Crossref
19. X. Huang. Scr. Mater. 38, 1697 (1998). Crossref
20. X. Huang, A. Borrego, W. Pantleon. Mater. Sci. and Eng. A. 319-321, 237 (2001). Crossref
21. X. Huang, G. Winther. Phil. Mag. 87, 5189 (2007). Crossref
22. G. Winther, X. Huang. Phil. Mag. 87, 5215 (2007). Crossref
23. E. Aernoudt, P. V. Houtte, T. Leffers. Deformation and Textures of Metals at Large Strain. In: Materials Science and Technology (ed. by R. W. Cahn, P. Haasen, E. J. Kramer). Wiley (2006). Crossref
24. M. Seefeldt, L. Delannay, B. Peeters, E. Aernoudt, P. Van Houtte. Acta Mater. 49, 2129 (2001). Crossref
25. I. J. Beyerlein, R. A. Lebensohn, C. N. Tomé. Mater. Sci. and Eng. A. 345, 122 (2003). Crossref
26. A. A. Nazarov, N. A. Enikeev, A. E. Romanov, T. S. Orlova, I. V. Alexandrov, I. J. Beyerline, R. Z. Valiev. Acta Materialia. 54, 985 (2006).
27. L. S. Toth, Y. Estrin, R. Lapovok, C. Gu. Acta Mater. 58, 1782 (2010). Crossref
28. A. Zisman. Int. J. of Eng. Science. 116, 155 (2017). Crossref
29. R. Wang, C. Lu, K. A. Tieu, A. A. Gazder. Journal of Materials Research and Technology. 18, 508 (2022). Crossref
30. K. Sedighiani, K. Traka, F. Roters, J. Sietsma, D. Raabe, M. Diehl. Acta Materialia. 237, 118167 (2022). Crossref
31. A. Arya, S. Suwas, A. H. Chokshi. Materials Science and Engineering A. 856, 143955 (2022). Crossref
32. P. J. Noell, J. E. C. Sabisch, D. L. Medlin, B. L. Boyce. Acta Mater. 184, 211 (2020). Crossref
33. M. Kuroda, A. Uenishi, H. Yoshida, A. Igarashi. Int. Journal of Solids and Structures. 43, 4465 (2006). Crossref
34. F. Bachmann, R. Hielscher, H. Schaeben. Ultramicroscopy. 111, 1720 (2011). Crossref
35. R. Wang, A. A. Saleh, G. Casillas, C. Lu, A. A. Gazder. Mater. Sci. and Eng. A. 819, 141184 (2021). Crossref
36. C. Thorning, M. A. J. Somers, J. A. Wert. Mater. Sci. Eng. A. 397, 215 (2005). Crossref
37. V. V. Rybin, A. A. Zisman, N. Yu. Zolotorevsky. Acta Metall. Mater. 41, 2211 (1993).
38. L. Delannay, O. V. Mishin, D. Juul Jensen, P. Van Houtte. Acta Mater. 49, 2441 (2001). Crossref
39. A. Ma, F. Roters, D. Raabe. Acta Mater. 54, 2181 (2006). Crossref
40. D. P. Field, A. Alankar. Metall. Mater. Trans. A. 42A, 676 (2011). Crossref
41. D. A. Hughes, N. Hansen. Acta Mater. 48, 2985 (2000). Crossref

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Финансирование на английском языке

1. Russian Science Foundation - project No 21-19-00366